1.  Cells are like cities because they have many parts that allow them function efficiently.

2.  specialized structure that performs important cellular functions  “little organ”

3.  Type of Cell:  All except animal  Structure:  Rigid outer layer of cell.  Slightly different composition for different types of cells  Function:  Support  Protection

4.  Type of Cells:  All cells  Structure:  Lipid bi-layer  Thin, flexible  Function:  Control movement in and out of cell  Selectively permeable – only let certain substances in and out of the cell

5.  Types of Cells:  All cells  Structure:  Clear, thick jelly-like material  Function:  Support cellular organelles

6.  Types of Cells:  Eukaryotic Cells (Plant, Animal, Fungi, Protist)  Structure:  Large, oval shape  Near center  Double membrane with nuclear pores (holes)  Function:  Contains and protects DNA (genetic information)  Controls the cell

7. A. Nucleus B. Cell wall C. Cell membrane D. Cytoplasm

8. A. Animal B. Plant C. Bacteria D. Fungi

9. 1. Cell membrane 2. Nucleus 3. Cytoplasm 4. Cell wall

10. 1. Cell membrane 2. Cytoplasm 3. Nucleus 4. Ribosome

11.  Types of Cells:  All cells  Inside nucleus in eukaryotic cells or in middle of prokaryotic cells  Structure:  Double helix of nucleic acids  DNA is coiled to form chromatin and wound up even more into organized packages of DNA called chromosomes  Function:  Genetic information (“blue- print of life”)  Contains the code for making proteins

12.  Types of Cells:  Eukaryotic (plant, animal, fungi, protist)  Structure:  Small round structure inside the nucleus  Function:  Makes ribosomes

13. 1. Plant 2. Animal 3. Bacteria 4. All of the above 0

14. 1. Chloroplast 2. Vesicle 3. Cell wall 4. Cytoplasm

15.  Types of Cells:  Eukaryotic (plant, animal, fungi, protist)  Structure:  Fluid-filled sacs  Larger in plants  Function:  Stores waste, food, water for later use

16.  Types of cells:  Animal cells  Some protists  Structure:  Small, round compartment that holds digestive enzymes  Function:  Breakdown large food particles  Digest old cell parts  “Clean up”

17. 1. Transport materials 2. Control the cell 3. Store water and nutrients 4. Protect the cell

18. Microtubules & Microfilaments  A network of protein fibers extending throughout the cytoplasm

19.  Types of Cells:  All Cells  Structure:  Twisted chain of proteins  Thinnest protein fibers in the cell  Function:  Help maintain shape and supports the cell  cause cytoplasmic streaming in plant cells

20.  Types of Cells:  Eukaryotic  Structure  Hollow tubes made of Protein  Function  Facilitate the movement of vesicles  Motor proteins

21.  Cilia  Structure: Tiny hair-like projections on the outside of certain cells  Function: Moves materials around the outside of the cell  Ex: cells found in the lining of the trachea (windpipe)  Moves mucus and dirt out of the lungs  Flagella  Can be found in some prokaryotic & eukaryotic cells  Structure: Long whip-like tail  Function: Moves the cell  Ex: sperm cells

22. 1. Rough ER 2. Smooth ER 3. Cytoplasm 4. Lysosome

23. 1. Digestion of food 2. Movement of cell 3. makes lipids 4. Contains DNA

24.  Types of Cells:  All Cells  Structure:  Small organelles made of RNA  No membrane  Floating free in the cytoplasm or attached to Rough ER  Function:  Help make proteins

25.  Type of Cells:  Eukaryotic (plant, animal, fungi, protist)  Structure:  Network of folded tubes or membranes  ROUGH ER: Ribosomes attached  SMOOTH ER: Nothing attached  Function:  Rough ER: help make proteins  Smooth ER: makes lipids (AKA FATS)  Make and package materials (proteins or lipids) into transport vesicles

27.  Types of Cells:  Eukaryotic (plant, animal, fungi, protist)  Structure:  membranous sac  Moves along the microtubules.  Function:  transport of materials made by the cell (lipids and proteins)  Secrete materials to the outside of the cell

28.  Location:  Eukaryotic (plant, animal, fungi, protist)  Structure:  Flattened membranous sacs (like a stack of pancakes)  Function:  Modifies lipids & proteins  Package materials into secretory vesicles to send them outside of the cell

31. 1. Cell Membrane 2. Endoplasmic Reticulum 3. Cytoplasm 4. Lysosome

32. 1. Make lipids 2. Make proteins 3. Control the cell 4. Package and transport materials

33. 1. Make lipids 2. Control cell movement 3. Store nutrients 4. Help make proteins

34.  Types of Cells:  Eukaryotic (plant, animal, fungi, protist)  Structure:  Bean-shaped organelle with folded inner membranes  Function:  Convert energy (Glucose to ATP)  Cellular Respiration occurs here  Convert food, oxygen, and water into useable energy

35.  Types of cells:  Plant Cells ( and some protists)  Structure:  Green ovals containing chlorophyll (green pigment)  Function:  Convert energy from the sun to make food for the plant (photosynthesis)

36.  Endosymbiotic theory –  Mitochondria and chloroplasts, the two energy related organelles, arose when a large eukaryotic cell engulfed independent prokaryotes  This explains why they have a double membrane and why they have genetic material separate from the nucleus

37. 1. Make lipids 2. Make proteins 3. Control the cell 4. Make energy

38. 1. Mitochondria 2. Chloroplast 3. Golgi apparatus 4. Lysosomes

39. 1. Plant 2. Animal 3. Eukaryote 4. Prokaryote

40. 1. Nucleus 2. Endoplasmic reticulum 3. Cell Wall 4. Cell Membrane